An automatically adjusting ball-mount hitch apparatus is disclosed having a hitch ball extending from a platform. A shaft extends from the platform and is slidably disposed within a sleeve. A hitch bar has a first generally horizontal arm adapted to be removably attached to a receiver hitch of a towing vehicle. A generally vertical arm of the hitch bar is attached to a coupling that is connected to or formed integrally with the sleeve. The shaft is capable of vertical movement within the sleeve in response to vertical forces applied to the platform, permitting the platform and the hitch ball to move vertically, independent of the hitch bar and the towing vehicle receiver, in an automatic fashion during use of the apparatus.
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1. An automatically adjusting ball-mount hitch apparatus, comprising:
a platform;
a hitch ball extending from the platform for attachment to a trailer;
a shaft extending vertically from the platform and slidably disposed within a sleeve;
a hitch bar having a first generally horizontal arm adapted to be removably attached to a receiver hitch of a towing vehicle and a generally vertical arm attached to a coupling that is connected to or formed integrally with the sleeve;
wherein the shaft slidably moves within the sleeve in response to forces applied to the platform as the towing vehicle and trailer interconnected by the ball-mount hitch apparatus pass over uneven ground, permitting the platform and hitch ball to move, independent of the hitch bar, while the towing vehicle is towing the trailer.
13. An automatically adjusting ball-mount hitch apparatus, comprising:
a platform;
a hitch ball extending from the platform for attachment to a trailer;
a shaft extending vertically from the platform;
a slide cage having a coupling portion and a sleeve portion that slidably receives the shaft therein;
a generally l-shaped hitch bar having a first generally horizontal arm adapted to be removably attached to a receiver hitch of a towing vehicle and a generally vertical arm received within and attached to the coupling portion of the slide cage;
wherein the shaft slidably moves within the sleeve portion of the slide cage in response to forces applied to the platform as the towing vehicle and trailer interconnected by the ball-mount hitch apparatus pass over uneven ground, permitting the platform and hitch ball to move vertically, independent of the hitch bar, while the towing vehicle is towing the trailer.
17. An automatically adjusting ball-mount hitch apparatus, comprising:
a platform;
a hitch ball extending from the platform for attachment to a trailer;
a shaft extending vertically from the platform and slidably disposed within a sleeve;
a generally l-shaped hitch bar having a first generally horizontal arm adapted to be removably attached to a receiver hitch of a towing vehicle and a generally vertical arm attached to a coupling;
an extension extending between and connected to the sleeve and the coupling, wherein at least one of the connections to the extension is a pivotal connection;
wherein the shaft is capable of vertical movement within the sleeve in response to vertical forces applied to the platform as the towing vehicle and trailer interconnected by the ball-mount hitch apparatus pass over uneven ground, permitting the platform and hitch ball to move vertically, independent of the hitch bar, while the towing vehicle is towing the trailer.
21. An automatically adjusting ball-mount hitch apparatus, comprising:
a hitch bar adapted to be removably attached to a receiver hitch of a towing vehicle;
a coupling attached to the hitch bar;
a hitch ball operably connected to the coupling and removably attachable to a trailer; and
a dampener for controlling vertical movement of the hitch ball;
wherein the coupling is interconnected to an arm of the hitch bar and a shaft associated with the hitch ball;
wherein the coupling comprises a slide cage having a tube lockingly connectable to the arm of the hitch bar along a length thereof and a sleeve which slidably receives the shaft therein, wherein the shaft moves vertically within the sleeve as the towing vehicle and trailer interconnected by the ball-mount hitch apparatus pass over uneven ground; and
wherein the hitch ball independently moves generally vertically independent of the hitch bar in response to generally vertical forces applied to the hitch ball as the towing vehicle and trailer interconnected by the ball-mount hitch apparatus pass over uneven ground.
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This application claims priority to U.S. Provisional Application Ser. No. 61/926,048, filed on Jan. 10, 2014.
The present invention generally relates to trailer hitches for connecting a trailing vehicle to a towing car, truck or other vehicle. More particularly, the present invention relates to an automatically adjusting ball-mount hitch apparatus, wherein a portion of the apparatus connected to the trailing vehicle is capable of vertical movement when the apparatus is in use.
Many people have a need to haul something behind their car or truck. Typically, a trailer or trailing vehicle is coupled to the towing vehicle with a hitch assembly. Traditional towing techniques typically include a vehicle and an apparatus being towed, such as a trailer, which are joined together by a coupling. The coupling is accomplished using a ball-mount having a ball at one end. The ball-mount is inserted into a receiver at the rear of the vehicle with the ball mount extending distally from the vehicle. The trailer is then joined to the ball using a coupler located at the front of the trailer. In instances where the towing vehicle has a receiver height that is greater than the coupler height of the trailer, a “drop-hitch” or ball-mount that extends downward is utilized.
The traditional towing technique allows the vehicle and trailer to have some independent pitch, roll and yaw movement. However, the disadvantage of this technique is that the link between the vehicle and trailer is stationary and has a fixed height. When the vehicle passes through an incline or decline, the height of the ball-mount from the ground decreases. If the change of height is large enough, the vehicle's ball-mount and trailer coupling will make impact with the ground, exerting massive amounts of pressure onto the ball-mount and associated equipment. This impact often causes damage to the vehicle, towing equipment, and ground, roadway, or driveway. To correct this problem it would be desirable to have a towing system that allows vertical movement of the link between the vehicle and trailer in response to varying road angles.
Accordingly, there is a continuing need for a ball-mount hitch apparatus which automatically adjusts the ball-mount height when in use. Such an apparatus should allow vertical movement of the ball-mount in relation to the vehicle's receiver height, such that the angle between the towing vehicle and the trailer changes, the ball-mount height can raise or lower, preventing impact with the ground. The present invention fulfills these needs and provides other related advantages.
The present invention resides in an automatically adjusting ball-mount hitch apparatus which allows the hitch ball to move vertically independent of the connection to the towing vehicle.
The ball-mount hitch apparatus of the present invention generally comprises a platform having a hitch ball extending therefrom. A shaft extends vertically from the platform and is slidably disposed within a sleeve. A generally L-shaped hitch bar has a first generally horizontal arm adapted to be removably attached to a receiver hitch of a towing vehicle. A generally vertical arm of the hitch bar is attached to a coupling that is connected to or formed integrally with the sleeve. The shaft is capable of vertical movement within the sleeve in response to vertical forces applied to the platform, permitting the platform and the hitch ball to move vertically, independent of the hitch bar.
The coupling and the sleeve may be defined by a slide cage. The coupling and sleeve may comprise adjacent tubes of the slide cage, the coupling tube receiving the vertical arm of the hitch bar therein. Alternatively, at least one extension extends between and is connected to the coupling and the sleeve. Typically, the extension is pivotally connected to at least one of the coupling and the sleeve.
The vertical arm of the hitch bar is adjustably connected to the coupling along a length thereof. For example, the vertical arm of the hitch bar may include a series of spaced-apart apertures alignable with an aperture of the coupling for insertion of a pin therethrough to lock the vertical arm of the hitch bar to the coupling.
Preferably, the apparatus includes a dampener for controlling the vertical movement of the shaft. The dampener may comprise a shock absorber operably connected to or associated with the shaft at one end thereof into the sleeve at a generally opposite end thereof. Alternatively, the dampener may be associated with the extension for dampening the movement of the shaft within the sleeve.
A roller may extend downwardly from the platform. The roller may be connected with the platform so as to swivel with respect to the platform.
Other features and advantages of the present invention will become apparent from the following more detailed description, taken in conjunction with the accompanying drawings, which illustrate, by way of example, the principles of the invention.
The accompanying drawings illustrate the invention. In such drawings:
As shown in the accompanying drawings, which are provided for exemplary purposes, the present invention relates to a ball-mount hitch apparatus which permits the hitch ball height to automatically raise or lower as the angle between the towing vehicle and the trailer changes, preventing impact with the ground, as the ball-mount hitch apparatus is in use.
With reference to
In accordance with the present invention, a shaft 16 extends vertically upwardly from the platform 12 in spaced relation to the hitch ball 14. The shaft 16 has a length sufficient to accommodate a drop height of the apparatus 10, as will be more fully described herein, as well as anticipated vertical travel of the hitch ball 14 as the towing vehicle and trailer encounter uneven ground surfaces. Such travel distance can be as little as several inches up to several feet. The shaft 16 is received within and is allowed to vertically slidably move within a sleeve 18. The sleeve 18 generally restricts the shaft movement, and thus platform 12 and ball 14, to vertical travel. As such, the interior configuration of the sleeve 18 generally matches the exterior configuration of the shaft 16, with the interior diameter of the sleeve 18 being slightly greater than the exterior diameter of the shaft 16.
The apparatus 10 also includes a hitch bar 20, which is typically generally L-shaped, as illustrated. A horizontal first arm 22 of the hitch bar 20 is configured to be removably attached to a receiver hitch of a towing vehicle. Such receiver-type hitches are well known and consist of a portion that mounts to the frame of the towing vehicle, and has a rearward-facing opening that accepts the horizontal arm 22 of the hitch bar 20. The horizontal arm 22 of the hitch bar 20 is removably attachable to the receiver hitch of the towing vehicle, such as by inserting a locking pin through aligned apertures of the receiver hitch and an aperture 24 of the horizontal arm 22.
The hitch bar 20 also includes a vertical second arm 26 which is operably connected to a coupling 28. This may be, for example, by means of a locking pin 30 insertable through an aperture 32 of the coupling 28 and an aperture 34 of the vertical arm 26. In a particularly preferred embodiment, the vertical arm 26 includes a plurality of spaced-apart apertures 34 which enable the vertical arm 26 to be adjustably connected to the coupling 28. This allows the apparatus 10 to accommodate varying rise or drop variations in the height of the towing vehicle as compared to the trailer to provide for level towing. It will be appreciated that the locking pin 30 may comprise other locking mechanisms, such as a nut and bolt arrangement, etc., which enables the coupling 28 to be securely and fixedly connected to the hitch bar 20 once the proper rise or drop has been determined.
The coupling 28 and sleeve 18 are connected to one another or integrally formed as a single piece. As illustrated in
With reference now to
With reference again to
Alternatively, or in addition to, one or more dampeners 42 may be coupled to the shaft 16 so as to control the vertical movement of the shaft 16 as the dampener 42 will dampen any sudden change in the travel of the shaft 16, and thus the platform 12 and tow hitch ball 14. The dampener 42 may be in the form of a spring or one or more shock absorbers, as illustrated. The shock absorber dampener 42 may have a first end 44 connected to the shaft 16 (or any portion fixed to the shaft 16), such as the platform 12, and a generally second end 46 attached to the sleeve 18, such as by means of the illustrated crossbar 48 which is attached to the sleeve 18 or exterior of the slide cage 36 and provides the attachment of two shock absorber dampeners 42. Thus, as the angle between the horizontal arm 22 and its connected hitch receiver of the tow vehicle and the tow hitch ball 14 and trailer change, such as encountering uneven ground surface, the shaft 16 (and platform 12 and hitch ball 14) will move either upwardly or downwardly in response to this angle change. Such changes can exert a significant amount of force upon the shaft 16, platform 12 and hitch ball 14, and the one or more dampeners 42 serve to dampen any sudden change in the travel of the platform 12, hitch ball 14 and shaft 16, and thus control the movement thereof.
With reference now to
As shown in the various figures, a roller 50, such as a caster wheel or the like, may be operably connected to the platform 12 to prevent the apparatus 10 from being caught if impact with the ground occurs. The bracket 52 which interconnects the wheel or roller 50 with the platform 12 may be rotationally or pivotally attached to the platform 12 so as to allow the roller 50 to swivel. Thus, in cases of extreme angle variations between the towing truck and the trailer, such as when encountering a particularly large bump or depression in the ground surface, the roller 50 will engage the ground surface first and allow the apparatus 10 to roll along the uneven surface and reduce the likelihood of damage to the apparatus 10 and/or the towing vehicle or trailer.
With reference now to
The operation of the apparatus 100 illustrated in
With reference now to
At generally the opposite end of the apparatus 1000, is the hitch bar 1020, including a horizontal bar 1022 configured and adapted to be received and attached to a receiving hitch of a towing vehicle and a vertical arm 1026 adjustably coupled to a coupling 1028, such as by means of pin insertable and alignable apertures 1032 and 1034 of the coupling 1028 and vertical arm 1026.
It will be readily seen in
Additional extension bars 1066, 1068, etc. may interconnect the coupling 1028 and the sleeve 1018, as illustrated. The connecting points 1070 and 1072 of these extension bars 1066 and 1068 may comprise pivotal connections to allow for articulation.
Preferably, one or more dampeners are associated with the apparatus 1000 in order to dampen sudden movement of the platform 1012, ball 1014 and shaft 1016 in relation to the hitch bar 1020. Such a dampener could be attached and configured in a variety of manners, such as illustrated in
Although several embodiments have been described in detail for purposes of illustration, various modifications may be made without departing from the scope and spirit of the invention. Accordingly, the invention is not to be limited, except as by the appended claims.
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